94 research outputs found
Asteroid rotation periods from the Palomar Transient Factory survey
The Palomar Transient Factory (PTF) is a synoptic survey designed to explore
the transient and variable sky in a wide variety of cadences. We use PTF
observations of fields that were observed multiple times (>=10) per night, for
several nights, to find asteroids, construct their lightcurves and measure
their rotation periods. Here we describe the pipeline we use to achieve these
goals and present the results from the first four (overlapping) PTF fields
analyzed as part of this program. These fields, which cover an area of 21
deg^2, were observed on four nights with a cadence of ~20 min. Our pipeline was
able to detect 624 asteroids, of which 145 (~20%) were previously unknown. We
present high quality rotation periods for 88 main-belt asteroids and possible
period or lower limit on the period for an additional 85 asteroids. For the
remaining 451 asteroids, we present lower limits on their photometric
amplitudes. Three of the asteroids have lightcurves that are characteristic of
binary asteroids. We estimate that implementing our search for all existing
high-cadence PTF data will provide rotation periods for about 10,000 asteroids
mainly in the magnitude range ~14 to ~20.Comment: 16 pages, 11 figures, 6 tables + Supplementary Material. Accepted for
publication in MNRA
The Main Belt Comets and ice in the Solar System
We review the evidence for buried ice in the asteroid belt; specifically the questions around the so-called Main Belt Comets (MBCs). We summarise the evidence for water throughout the Solar System, and describe the various methods for detecting it, including remote sensing from ultraviolet to radio wavelengths. We review progress in the first decade of study of MBCs, including observations, modelling of ice survival, and discussion on their origins. We then look at which methods will likely be most effective for further progress, including the key challenge of direct detection of (escaping) water in these bodies
Synthesis and import of GDP-L‐fucose into the Golgi affect plant–water relations
Land plants evolved multiple adaptations to restrict transpiration. However, the underlying molecular mechanisms are not sufficiently understood.
We used an ozone-sensitivity forward genetics approach to identify Arabidopsis thaliana mutants impaired in gas exchange regulation.
High water loss from detached leaves and impaired decrease of leaf conductance in response to multiple stomata-closing stimuli were identified in a mutant of MURUS1 (MUR1), an enzyme required for GDP-l-fucose biosynthesis. High water loss observed in mur1 was independent from stomatal movements and instead could be linked to metabolic defects. Plants defective in import of GDP-l-Fuc into the Golgi apparatus phenocopied the high water loss of mur1 mutants, linking this phenotype to Golgi-localized fucosylation events. However, impaired fucosylation of xyloglucan, N-linked glycans, and arabinogalactan proteins did not explain the aberrant water loss of mur1 mutants.
Partial reversion of mur1 water loss phenotype by borate supplementation and high water loss observed in boron uptake mutants link mur1 gas exchange phenotypes to pleiotropic consequences of l-fucose and boron deficiency, which in turn affect mechanical and morphological properties of stomatal complexes and whole-plant physiology. Our work emphasizes the impact of fucose metabolism and boron uptake on plant–water relations
Observation of Oxygen-Vacancy-Ordered Domains in Oxygen-Deficient Single-Crystal YBa2Cu3O6.7
Ordered domains due to oxygen vacancies in oxygen-deficient YBa2Cu3O6.7 single crystals have been imaged by dark-field electron micriscopy using the diffuse diffraction spots centered at ,0,0). When projected along the c axis, the ordered domains have longitudinal and transverse dimensions of 200 and 20, respectively. The longitudinal direction of the domains is parallel to the Cu-O chain direction (i.e., b axis). The vacancy-ordered domains are estimated to occupy 3% of the sample volume
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